JP4990017B2 - Lighting system - Google Patents

Description

  The present invention relates to a lighting system including a lighting fixture and a control unit that controls the lighting fixture, and more particularly to a lighting system that is applied to a store and that illuminates a product with a lighting fixture.

  Conventionally, since there are many products in stores such as merchandise stores, a technique for managing them in a unified manner has been demanded. Therefore, product information is recorded, an RFID tag attached to the product, a reading device attached to the display shelf and reading the above information from the RFID tag, and information read by the reading device are collectively managed. A system including a management computer is known (see, for example, Patent Document 1).

By the way, in a store, in order to illuminate a product placed on a show window, a showcase, a display shelf, or the like, illumination light is applied to the product from a lighting fixture. The illumination light may be emitted not only for illumination but also for the purpose of producing a product. When irradiating a product with illumination light for the purpose of production, it is necessary to irradiate the product with the optimum light suitable for each product. Conventionally, in order to emit such illumination light, a store clerk or the like manually operates the luminaire and adjusts the illumination setting. The lighting setting for the production purpose differs depending on the product and requires a fine operation, so the adjustment work of the illumination light has been troublesome. In addition, depending on the sensitivity of the shop clerk who performs the work and the setting skill, the lighting setting is different, and the appearance of the product may be different. Therefore, in a large clothing chain or the like, the lighting setting for the same product is different for each store, and it is difficult to unify this setting. That is, the same lighting effect could not be obtained for the same product. However, since the technique of Patent Document 1 is not a technique for setting illumination, this problem cannot be solved.
JP-A-2005-312576

  The present invention has been made in order to solve the above-described conventional problems, eliminates the need for troublesome adjustment work of illumination light, and can provide the same illumination effect for the same product regardless of the operator. The purpose is to provide a system.

To achieve the above object, the present invention provides a lighting system including a lighting fixture and a control means for controlling the lighting fixture, information attached to a product and color information and material information of the product recorded in advance. A tag, a detection unit that detects color information and material information recorded in the information tag, and a transmission unit that transmits the color information and material information detected by the detection unit to the control unit. The means receives the color information and material information transmitted from the transmission means , controls the light color of the lighting fixture based on the received color information , and distributes the light distribution of the lighting fixture based on the received material information calculating means for generating a control signal for controlling the provided on the luminaire in accordance with the control signal, and a light color and light distribution changing means for changing the light color and light distribution of the luminaire, the And, wherein the detecting means is provided separately from the luminaire, wherein the information tag is an IC tag, the light color and light distribution changing means includes a red light-emitting diodes, green light emitting diode and the blue light emitting diode A plurality of light sources having different light colors, and changing the light color by controlling the amount of light of each of the plurality of light sources, including a shape-variable reflector, and changing the shape of the reflector The light distribution is changed by changing the reflection direction of a part of the light emitted from the light source according to the shape change.

According to the present invention , it is possible to adjust the illumination light according to the product only by causing the detection means to detect the color information and the material information from the information tag. For this reason, the troublesome adjustment work of illumination light becomes unnecessary. Further, by attaching an information tag in which the same color information and material information are recorded to the same product, the same lighting effect can be obtained for the same product regardless of the operator.

In addition, since the luminaire is generally fixed at a predetermined place, the detection means can be provided in a portable device. Therefore, it is possible to ensure convenience when the detection means detects color information and material information from the information tag.

Further, since the IC tag has a large storage capacity, a large amount of information can be stored in the IC tag. Accordingly, detailed color information and material information of the product can be stored in the information tag. For this reason, the light color and light distribution of a lighting fixture can be finely controlled based on detailed color information and material information.

In addition, when different types of light sources are used as different types of light sources, the combined light of a plurality of colors can be emitted as illumination light by controlling the amount of light respectively. It becomes possible to irradiate light-colored illumination light.

Further, light of all colors can be emitted as illumination light using a red light emitting diode, a green light emitting diode, and a blue light emitting diode. For this reason, it becomes possible to irradiate the product with light of the light color optimum for the product.

In addition, since the light reflection direction changes according to the shape change of the reflector, the light distribution of the illumination light can be changed.

Hereinafter, an illumination system according to an embodiment of the present invention will be described with reference to the drawings . Fig.1 (a) (b) and FIG. 2 show the structure of the illumination system 1 which concerns on this embodiment , and the example of application of the illumination system 1 in a shop. This lighting system 1 is applied to a clothing store, for example. This lighting system 1 is attached to a lighting device 2 provided with a light source 21 and a shape-changing reflector 22 and a product G, and color information and material information (hereinafter referred to as color / material information) of the product G are stored in advance. A recorded information tag 3 and a setting remote controller 4 that is operated by a store clerk A or the like that adjusts the lighting setting of the lighting fixture 2 and reads color / material information from the information tag 3 are provided. The product G is clothes, for example. The setting remote controller 4 transmits a color / material information detected by the tag information detection unit 41 and a tag information detection unit 41 (detection means) that detects color / material information recorded in the information tag 3 to the lighting fixture 2. An information transmission unit 42 (transmission means).

The lighting fixture 2 receives the color / material information transmitted from the information transmitting unit 42 of the setting remote controller 4, and the light color of the light source 21 based on the color / material information received by the information receiving unit 23. And a calculation control unit 24 that generates a control signal for controlling light distribution, and a lighting control unit 25 that controls lighting of the light source 21 so as to change the light color of the light source 21 according to the control signal from the calculation control unit 24. And a drive unit 26 that drives to change the shape of the reflector 22 in accordance with a control signal from the arithmetic control unit 24 and changes the light distribution of the lighting fixture 2. The light distribution of the lighting fixture 2 is changed by changing the positional relationship. The information receiving unit 23 and the calculation control unit 24 constitute a calculation unit. In addition, the light source 21, the lighting control unit 25, and the driving unit 26 constitute a light color and light distribution changing unit. Moreover, the light source 21, the information receiving part 23, the calculation control part 24, the lighting control part 25, and the drive part 26 comprise a control means. Hereinafter, the configuration of the lighting system 1 (information tag 3, setting remote controller 4, lighting fixture 2) will be described in detail.

  First, the configuration of the information tag 3 will be described. The information tag 3 is configured by an IC tag, a barcode, a two-dimensional barcode (QR code), a tag printed with a magnetic ink pattern, or the like, and is preferably an IC tag. Since the IC tag has a large storage capacity, a large amount of information can be stored in the IC tag. Accordingly, the detailed color / material information of the product G can be stored in the information tag 3. For this reason, the light color and light distribution of the lighting fixture 2 can be finely controlled based on detailed color / material information.

  The IC tag is also called an RF-ID tag, and is formed by sealing an IC chip on which information is recorded with a resin sheet or the like. The driving method of the IC tag may be either an active type or a passive type, but is preferably a passive type. In this passive system, the IC tag reflects radio waves from the reader's antenna, and sends the color / material information to the reader on this reflected wave. Therefore, since no power source is required in the IC tag, the IC tag can be manufactured at a lower cost than an active method in which a power source is built in the IC tag. There is no worry of running out of batteries. The form of attachment of the information tag 3 to the product G includes a form of attaching to the product G with a string or the like like a price tag, and a form of sewing to the product G like a material display tag (not shown).

  In the information tag 3, the color / material information of the product G is recorded in advance. Both color information and material information may be stored in the information tag 3, or only one of them may be stored. The color information is obtained by quantifying the representative color of the product G. This digitization is performed using known color coordinates. When the color of the product G is a single color, that color becomes the representative color of the product G. In addition, when a fine pattern with a color different from the base color is continuously printed on the product G, the respective colors are digitized, and these numbers are multiplied by the respective areas, and the sum total of them is the total area. The average value obtained by dividing is the color information. Further, when a large one-point print is made on the product G, two colors of the base color and the one-point color are representative colors. Further, when the product G is a stripe pattern or the like and the color contrast is emphasized, two colors forming the stripe pattern or the like are representative colors. On the other hand, the material information is obtained by quantifying the material, gloss, reflectance, etc. of the product G.

  Next, the configuration of the setting remote controller 4 will be described. The tag information detection unit 41 is configured by an IC tag reader, a barcode reader, a two-dimensional barcode, a magnetic identification sensor, or the like, and an IC tag reader is desirable. When the information tag 3 is constituted by an IC tag and the driving method of the IC tag is a passive type, the IC tag reader is equipped with an antenna that radiates radio waves. Is supplied to the IC tag. The communication method between the IC tag and the IC tag reader may be either an electromagnetic induction method or a radio wave method. When the tag information detection unit 41 comes into contact with or close to the information tag 3, the tag information detection unit 41 detects the color / material information from the information tag 3, reads it, and sends it to the information transmission unit 42.

  The information transmission unit 42 includes a transmission circuit that transmits information using infrared rays, radio waves, visible light lasers, or the like. This transmission circuit sends the color / material information read from the information tag 3 by the tag information detection unit 41 to the lighting fixture 2. Communication with the lighting fixture 2 is preferably communication using infrared rays. In the case of infrared communication, the configuration of the transmission circuit can be simplified, so that the cost of the setting remote controller 4 can be reduced and the cost of the illumination system 1 can be reduced. In addition, when the lighting system 1 is provided with a plurality of lighting fixtures 2, the information transmission unit 42 is configured to be able to switch communication channels in order to enable communication with the plurality of lighting fixtures 2.

  In the configuration of the setting remote controller 4, the tag information detection unit 41 is installed in the portable setting remote controller 4 separately from the luminaire 2 fixed at a predetermined place. Therefore, it is possible to ensure the convenience when the setting remote controller 4 detects the color / material information from the information tag 3.

  Next, the structure of the lighting fixture 2 is demonstrated. The light source 21 includes a plurality of different types of light sources. For this reason, when light sources having different light colors are used as different types of light sources, the combined light of a plurality of colors can be emitted as illumination light by controlling the amount of light respectively. Therefore, it is possible to irradiate the illumination light of the light color optimum for the product G.

  Specifically, the light source 21 includes a red light emitting diode, a green light emitting diode, and a blue light emitting diode. Hereinafter, the light emitting diode is referred to as LED. The light source 21 is installed on, for example, a ceiling or an upper wall of a store window in a store. For this reason, light of all colors can be emitted as illumination light using a red LED, a green LED, and a blue LED. Therefore, it is possible to irradiate the product with light of the optimal light color for the product G.

  The reflection plate 22 is formed so as to reflect the emitted light of the light source 21 to the front of the light source 21. The detailed configuration of the reflecting plate 22 will be described later. The information receiving unit 23 is configured by a receiving circuit that receives infrared rays, radio waves, visible light lasers, or the like and extracts information superimposed on them. This receiving circuit receives color / material information from the information transmitting unit 42 of the setting remote controller 4. Communication with the setting remote controller 4 is preferably communication using infrared rays. In the case of infrared communication, since the configuration of the receiving circuit can be simplified, the cost of the lighting fixture 2 can be reduced, and the cost of the lighting system 1 can be reduced. The information receiving unit 23 sends the color / material information from the setting remote controller 4 to the calculation control unit 24.

  The arithmetic control unit 24 is configured by a microcomputer equipped with a CPU. This microcomputer controls the light color and light distribution of the light source 21 based on the color / material information sent from the information receiving unit 23. At the time of this control, the calculation control unit 24 calculates the optimal light color and light distribution of the illumination light for the product G by calculation. In the calculation for obtaining the optimum light color, the light color that emphasizes the representative color of the product G is calculated as the optimum light color. For example, when the representative color of the product G is red, the reflection spectrum of the product G has the distribution shown in FIG. 3, so that light with a wavelength component near about 600 nm that changes when the spectrum rises is cut off. Is calculated as the optimal light color. This light color illumination light emphasizes red more. In the calculation for obtaining the optimum light distribution, for example, the optimum directivity for producing the product G is calculated. For example, when the surface of the product G has a gloss with a lot of regular reflection components, the light distribution in which the directivity of the illumination light is strengthened so that the gloss is more emphasized is calculated as the optimal light distribution for the product G.

  In addition, the calculation control unit 24 sends a control signal indicating the optimal light amount of each of the light sources 21, that is, the red LED, the green LED, and the blue LED, to the lighting control unit 25 according to the light color obtained by the calculation. In addition, the calculation control unit 24 sends a control signal indicating an optimal shape change amount of the reflecting plate 22 to the drive unit 26 in accordance with the light distribution obtained by the calculation.

  The lighting control unit 25 includes a lighting control circuit, and this lighting control circuit is driven in accordance with a control signal from the arithmetic control unit 24. The lighting control unit 25 performs light amount control on the light source 21, that is, the red LED, the green LED, and the blue LED, based on the control signal. The drive unit 26 is configured to change the shape of the reflection plate 22 in accordance with a control signal from the calculation control unit 24. The detailed configuration of the drive unit 26 will be described later.

  Next, the light color and light distribution changing operation of the illumination system 1 will be described. Here, it is assumed that the lighting system 1 is applied to a show window W of a store. The above operation is triggered by contact or proximity between the information tag 3 attached to the product G and the tag information detection unit 41 of the setting remote controller 4. This contact or proximity is performed by the store clerk A or the like when the product G is displayed. Based on the contact or proximity described above, the tag information detection unit 41 detects color / material information from the information tag 3. The information transmission unit 42 of the setting remote controller 4 transmits the detected color / material information to the information reception unit 23 of the lighting fixture 2. The arithmetic control unit 24 calculates the optimal light color and light distribution for the product G based on the color / material information received by the information receiving unit 23. In addition, the arithmetic control unit 24 generates a control signal based on the calculation result, and transmits the control signal to the lighting control unit 25 and the driving unit 26. The lighting control unit 25 changes the light color of the illumination light by controlling the lighting of the light source 21 in accordance with a control signal from the arithmetic control unit 24. The drive unit 26 changes the light distribution of the illumination light by deforming the reflecting plate 22 in accordance with a control signal from the calculation control unit 24.

  As described above, the tag information detection unit 41 of the setting remote controller 4 detects the color / material information of the product G from the information tag 3, and the lighting control unit 25 and the driving unit 26 detect the detected color information and / or material information. Since the light color and the light distribution of the illumination light are automatically changed on the basis of the information, it is possible to adjust the illumination light according to the product G simply by causing the setting remote controller 4 to detect the color / material information from the information tag 3. . For this reason, the troublesome adjustment work of illumination light becomes unnecessary. Further, since the lighting control unit 25 and the driving unit 26 automatically change the light color and light distribution of the illumination light based on the color / material information, information in which the same color / material information is recorded in the same product G By attaching the tag 3, the same lighting effect can always be obtained for the same product G regardless of the skill of the operator.

  FIG. 4 shows the configuration of the reflector 22 and the drive unit 26. For example, the reflecting plate 22 has a bowl shape in a cross-sectional view, and is provided with a hole at a substantially central portion thereof. A light source 21 is inserted into this hole. Further, the reflection plate 22 is provided with a hinge portion 22a, and a part of the reflection plate 22 is rotatably supported by the hinge portion 22a. Hereinafter, the portion that is rotated and displaced is referred to as a movable portion 22b.

  The drive unit 26 includes a main body portion 26a and a push / pull portion 26b that is inserted into and removed from the main body portion 26a and pushes and pulls the movable portion 22b of the reflection plate 22. The movable portion 22b of the reflecting plate 22 is urged outward by an urging member, for example, so that the outer side comes into contact with the tip of the push / pull portion 26b. A drive motor is provided in the main body portion 26a, and the push / pull portion 26b is taken in and out of the main body portion 26a using the rotational force of the drive motor as a driving force.

  Next, the light distribution changing operation of the drive unit 26 will be described. First, the drive motor in the main body 26 a rotates in response to a control signal from the arithmetic control unit 24. Based on this rotation, the push / pull amount of the push / pull portion 26b changes. The movable portion 22b of the reflecting plate 22 rotates about the hinge portion 22a as an axis in accordance with the change in the amount of pushing and pulling. Along with this, the shape of the reflecting plate 22 changes, and the reflection direction of some of the radiated light of the light source 21 changes according to this shape change. As a result, the light distribution of the illumination light is changed.

  FIG. 5 shows a modification of the drive unit 26. Compared with the drive unit 26 shown in FIG. 4, the configuration of the drive unit 26 according to this modification includes a rotating member 26 d that is pivotally supported by a shaft 26 c and to which the tip end portion of the push-pull unit 26 is fixed. Furthermore, it differs in the point provided. The rotating member 26d has a different distance from the shaft 26c to the outer periphery in a sectional view. The distal end portion of the push / pull portion 26b is rotatably fixed to one end of the rotating member 26d. As the push / pull operation of the push / pull portion 26 is performed, the rotation member 26d rotates about the shaft 26c. The movable portion 22b of the reflecting plate 22 is urged toward the rotating member 26d by an urging means (not shown), and is displaced along the outer peripheral shape of the rotating member 26d as the rotating member 26d rotates. . Due to this displacement, the shape of the reflecting plate 22 changes, and the light distribution of the illumination light is changed.

( Reference form )
FIG. 6 shows a configuration of the drive unit 26 of the lighting fixture 2 in the lighting system according to the reference embodiment of the present invention. The drive unit 26 includes a motor 26f and a rotating member 26g fixed to the tip of the rotating shaft of the motor 26f. A spiral groove extending in the rotation axis direction is formed on the outer periphery of the rotating member 26g. In the present embodiment, the holding member 21 a that holds the light source 21 is provided with a spiral groove extending in parallel with the direction in which the illumination light is emitted. The extending direction of the spiral groove is parallel to the rotation axis direction. The rotating member 26g and the holding member 21a are in contact with each other and are disposed so that their grooves are engaged with each other.

  In the above configuration, the motor 26f is driven to rotate in response to a control signal from the arithmetic control unit 24. The rotating member 26g rotates based on the driving force of the motor 26f. At this time, the holding member 21a rotates based on the rotation of the rotating member 26g and moves in the rotation axis direction. By this movement, the positional relationship between the light source 21 and the reflecting plate 22 is changed. Since the optical path is changed according to the change in the positional relationship, the light distribution of the illumination light can be changed. In this way, the distribution of illumination light can be optimized for the product G.

( Reference form different from the above )
FIG. 7 shows a configuration of the lighting fixture 2 of the lighting system 1 according to a reference embodiment different from the above . The configuration of the luminaire 2 according to the present embodiment includes a liquid crystal filter 27 disposed so as to close the opening for emitting illumination light of the reflector 22 and the liquid crystal, as compared with the luminaire 2 according to the embodiment or the reference embodiment. And a liquid crystal drive unit 28 for driving the filter 27. The diffusivity of the liquid crystal filter 27 is controlled by voltage control, for example. The liquid crystal drive unit 28 includes a liquid crystal drive circuit that operates in response to a control signal from the arithmetic control unit 24. The liquid crystal drive circuit controls the value of the voltage applied to the liquid crystal filter 27 in accordance with the control signal. By this voltage control, the diffusibility of the liquid crystal filter 27 is controlled, and the directivity of the illumination light is further controlled. As a result, the light distribution of the illumination light is changed .

  8A and 8B show an operation example of the liquid crystal filter 27. FIG. As shown in FIG. 2A, the liquid crystal molecules of the liquid crystal filter 27 are usually arranged so that all the light from the light source 21 is transmitted. When changing the light distribution, as shown in FIG. 5B, for example, the arrangement of the liquid crystal molecules is changed on the liquid crystal filter 27 based on the control by the liquid crystal driving unit 28. By this change, the light from the light source 21 is blocked at the upper part. For this reason, the light distribution of illumination light is changed. In this way, by controlling the change in the arrangement of the liquid crystal molecules and the change location, it is possible to distribute the illumination light suitable for the product G.

In addition, this invention is not limited to the structure of said embodiment, A various deformation | transformation is possible according to a use purpose. For example, the light source 21 is not limited to an LED, and may be an incandescent bulb, a fluorescent lamp, a halogen lamp, or the like . Also, in the lighting fixture 2 is provided with a plurality of filters having a predetermined transmission spectrum, by placing in front of the light source 21 lighting control unit 25 selects the one among them, the light of the illumination light The color may be controlled. Further, the light color of the light source 21 does not need to exactly match the optimum light color obtained by the arithmetic control unit 24, and has a spectrum closest to the optimum light color among controllable light colors. It suffices to be controlled. Further, the arithmetic control unit 24 may obtain the information by referring to a table indicating the correspondence relationship between the color / material information and the light color or light distribution of the illumination light. When this table is used, the table is stored in a memory provided inside or outside the microcomputer. The light distribution of the illumination light may be controlled by arranging a lens in front of the light source 21 and changing the positional relationship between the lens and the light source 21.

(A) is a block diagram of the illumination system which concerns on one Embodiment of this invention, (b) is a perspective view which shows the example of application of the illumination system in a shop. The electrical block diagram of the said illumination system. The figure which shows an example of the reflection spectrum distribution of goods. Sectional drawing which shows the structure of the reflecting plate and drive part of the lighting fixture in the said illumination system. Sectional drawing which shows the modification of the said drive part. Sectional drawing which shows the structure of the drive part of the lighting fixture in the lighting system which concerns on the reference form of this invention. The electrical block diagram of the lighting fixture in the illumination system which concerns on the reference form different from the above of this invention. (A) is sectional drawing which shows the operation example of the liquid crystal filter of the said lighting fixture, (b) is sectional drawing which shows the other operation example of the filter.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Lighting system 2 Lighting fixture 21 Light source (light color thru | or light distribution control means, control means)
22 Reflector (light color or light distribution control means, control means)
23 Information receiver (calculation means, control means)
24 Calculation control unit (calculation means, control means)
25 lighting controller (light color or light distribution control means, control means)
26 Drive unit (light color or light distribution control means, control means )
3 information tag 4 setting remote control 41 tag information detection part (detection means)
42 Information transmission unit (transmission means)

Claims (1)

In a lighting system comprising a lighting fixture and control means for controlling the lighting fixture,
An information tag attached to a product and pre-recorded with color information and material information of the product,
Detecting means for detecting color information and material information recorded in the information tag;
Transmission means for transmitting the color information and material information detected by the detection means to the control means,
The control means includes
The color information and material information transmitted from the transmission means are received, the light color of the lighting fixture is controlled based on the received color information , and the light distribution of the lighting fixture is controlled based on the received material information. Computing means for generating a control signal for
Is provided in the luminaire in accordance with said control signal, have a, a light color and light distribution changing means for changing the light color and light distribution of the luminaire,
The detection means is provided separately from the lighting fixture,
The information tag is an IC tag,
The light color and light distribution changing means includes a plurality of light sources having different light colors including a red light emitting diode, a green light emitting diode, and a blue light emitting diode, and controlling the light amount of each of the plurality of light sources, thereby controlling the light color. And changing the shape of the reflecting plate and changing the reflection direction of a part of the light emitted from the light source according to the shape change. An illumination system characterized by changing light .

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